Your search keyword '"Mousa, Shaker A."' showing total 14 results

1. Retraction: In Vivo Clearance of Apoptotic Debris From Tumor Xenografts Exposed to Chemically Modified Tetrac: Is There a Role for Thyroid Hormone Analogues in Efferocytosis?

Author

Godugu, Kavitha, Mousa, Shaker A., Glinsky, Gennadi V., Hung-Yun Lin, and Davis, Paul J.

Subjects

CELLULAR recognition, CELL membranes, HORMONE receptors, CANCER cells, GENETIC transcription

Abstract

Apoptosis is induced in cancer cells and tumor xenografts by the thyroid hormone analogue tetraiodothyroacetic acid (tetrac) or chemically modified forms of tetrac. The effect is initiated at a hormone receptor on the extracellular domain of plasma membrane integrin αvβ3. The tumor response to tetrac includes 80% reduction in size of glioblastoma xenograft in two weeks of treatment, with absence of residual apoptotic cancer cell debris; this is consistent with efferocytosis. The molecular basis for efferocytosis linked to tetrac is incompletely understood, but several factors are proposed to play roles. Tetrac-based anticancer agents are pro-apoptotic by multiple intrinsic and extrinsic pathways and differential effects on specific gene expression, e.g., downregulation of the X-linked inhibitor of apoptosis (XIAP) gene and upregulation of pro-apoptotic chemokine gene, CXCL10. Tetrac also enhances transcription of chemokine CXCR4, which is relevant to macrophage function. Tetrac may locally control the conformation of phagocyte plasma membrane integrin αvβ3; this is a cell surface recognition system for apoptotic debris that contains phagocytosis signals. How tetrac may facilitate the catabolism of the engulfed apoptotic cell debris requires additional investigation. [ABSTRACT FROM AUTHOR]

Published

2024

2. What is thyroid function in your just-diagnosed cancer patient?

Author

Hercbergs, Aleck, primary, Mousa, Shaker A., additional, Lin, Hung-Yun, additional, and Davis, Paul J., additional

Published

2023

3. (Thyroid) Hormonal regulation of breast cancer cells

Author

Hercbergs, Aleck, primary, Lin, Hung-Yun, additional, Mousa, Shaker A., additional, and Davis, Paul J., additional

Published

2023

4. In Vivo Clearance of Apoptotic Debris From Tumor Xenografts Exposed to Chemically Modified Tetrac: Is There a Role for Thyroid Hormone Analogues in Efferocytosis?

Author

Godugu, Kavitha, primary, Mousa, Shaker A., additional, Glinsky, Gennadi V., additional, Lin, Hung-Yun, additional, and Davis, Paul J., additional

Published

2022

5. Actions of Thyroid Hormones on Thyroid Cancers

Author

Mousa, Shaker A., primary, Hercbergs, Aleck, additional, Lin, Hung-Yun, additional, Keating, Kelly A., additional, and Davis, Paul J., additional

Published

2021

6. Editorial: Non Genomic Actions of Thyroid Hormones in Cancer

Author

Davis, Paul J., primary, Ashur-Fabian, Osnat, additional, Incerpi, Sandra, additional, and Mousa, Shaker A., additional

Published

2019

7. Corrigendum: Tetrac and NDAT Induce Anti-proliferation via Integrin αvβ3 in Colorectal Cancers With Different K-RAS Status

Author

Chin, Yu-Tang, primary, He, Zong-Rong, additional, Chen, Chi-Long, additional, Chu, Hsiao-Ching, additional, Ho, Yih, additional, Su, Po-Yu, additional, Yang, Yu-Chen S. H., additional, Wang, Kuan, additional, Shih, Ya-Jung, additional, Chen, Yi-Ru, additional, Pedersen, Jens Z., additional, Incerpi, Sandra, additional, Nana, André Wendindondé, additional, Tang, Heng-Yuan, additional, Lin, Hung-Yun, additional, Mousa, Shaker A., additional, Davis, Paul J., additional, and Whang-Peng, Jacqueline, additional

Published

2019

8. Tetrac and NDAT Induce Anti-proliferation via Integrin αvβ3 in Colorectal Cancers With Different K-RAS Status

Author

Chin, Yu-Tang, primary, He, Zong-Rong, additional, Chen, Chi-Long, additional, Chu, Hsiao-Ching, additional, Ho, Yih, additional, Su, Po-Yu, additional, Yang, Yu-Chen S. H., additional, Wang, Kuan, additional, Shih, Ya-Jung, additional, Chen, Yi-Ru, additional, Pedersen, Jens Z., additional, Incerpi, Sandra, additional, Nana, André Wendindondé, additional, Tang, Heng-Yuan, additional, Lin, Hung-Yun, additional, Mousa, Shaker A., additional, Davis, Paul J., additional, and Whang-Peng, Jacqueline, additional

Published

2019

9. Bioactivity of Thyroid Hormone Analogs at Cancer Cells

Author

Davis, Paul J., primary, Tang, Heng-Yuan, additional, Hercbergs, Aleck, additional, Lin, Hung-Yun, additional, Keating, Kelly A., additional, and Mousa, Shaker A., additional

Published

2018

10. 'Corrigendum: Cancer cell gene expression modulated from plasma membrane integrin alphavbeta3 by thyroid hormone and nanoparticulate tetrac'

Author

Davis, Paul J., Glinsky, Gennadi V., Lin, Hung-Yun, Leith, John T., Hercbergs, Aleck, Tang, Heng-Yuan, Ashur-Fabian, Osnat, Incerpi, Sandra, and Mousa, Shaker A.

Subjects

Thyroid hormone, tetraiodothyroacetic acid (tetrac), Endocrinology, lcsh:RC648-665, integrin, Endocrinology, Diabetes and Metabolism, Gene Expression, nano particle, Corrigendum, lcsh:Diseases of the endocrine glands. Clinical endocrinology

Published

2015

11. Corrigendum: “Cancer Cell Gene Expression Modulated from Plasma Membrane Integrin αvβ3 by Thyroid Hormone and Nanoparticulate Tetrac”

Author

Davis, Paul J., primary, Glinsky, Gennadi V., additional, Lin, Hung-Yun, additional, Leith, John T., additional, Hercbergs, Aleck, additional, Tang, Heng-Yuan, additional, Ashur-Fabian, Osnat, additional, Incerpi, Sandra, additional, and Mousa, Shaker A., additional

Published

2015

12. Cancer Cell Gene Expression Modulated from Plasma Membrane Integrin αvβ3 by Thyroid Hormone and Nanoparticulate Tetrac

Author

Davis, Paul J., primary, Glinsky, Gennadi V., additional, Lin, Hung-Yun, additional, Leith, John T., additional, Hercbergs, Aleck, additional, Tang, Heng-Yuan, additional, Ashur-Fabian, Osnat, additional, Incerpi, Sandra, additional, and Mousa, Shaker A., additional

Published

2015

13. Cancer cell gene expression modulated from plasma membrane integrin αvβ3 by thyroid hormone and nanoparticulate tetrac.

Author

Davis, Paul J., Glinsky, Gennadi V., Hung-Yun Lin, Leith, John T., Hercbergs, Aleck, Heng-Yuan Tang, Ashur-Fabian, Osnat, Incerpi, Sandra, and Mousa, Shaker A.

Subjects

INTEGRINS, CELL receptors, THYROID hormones, GENE expression, CANCER cell proliferation, GENETIC transcription, NANOPARTICLES, COVALENT bonds

Abstract

Integrin αvβ3 is generously expressed by cancer cells and rapidly dividing endothelial cells. The principal ligands of the integrin are extracellular matrix proteins, but we have described a cell surface small molecule receptor on αvβ3 that specifically binds thyroid hormone and thyroid hormone analogs. From this receptor, thyroid hormone (L-thyroxine, T4; 3,5,30-triiodo-L-thyronine, T3) and tetraiodothyroacetic acid (tetrac) regulate expression of specific genes by a mechanism that is initiated non-genomically. At the integrin, T4 and T3 at physiological concentrations are pro-angiogenic by multiple mechanisms that include gene expression, and T4 supports tumor cell proliferation. Tetrac blocks the transcriptional activities directed by T4 and T3 at αvβ3, but, independently of T4 and T3, tetrac modulates transcription of cancer cell genes that are important to cell survival pathways, control of the cell cycle, angiogenesis, apoptosis, cell export of chemotherapeutic agents, and repair of double-strand DNA breaks. We have covalently bound tetrac to a 200nm biodegradable nanoparticle that prohibits cell entry of tetrac and limits its action to the hormone receptor on the extracellular domain of plasma membrane αvβ3. This reformulation has greater potency than unmodified tetrac at the integrin and affects a broader range of cancerrelevant genes. In addition to these actions on intra-cellular kinase-mediated regulation of gene expression, hormone analogs at αvβ3 have additional effects on intra-cellular proteintrafficking (cytosol compartment to nucleus), nucleoprotein phosphorylation, and generation of nuclear coactivator complexes that are relevant to traditional genomic actions of T3. Thus, previously unrecognized cell surface-initiated actions of thyroid hormone and tetrac formulations at αvβ3 offer opportunities to regulate angiogenesis and multiple aspects of cancer cell behavior. [ABSTRACT FROM AUTHOR]

Published

2015

14. Corrigendum: "Cancer Cell Gene Expression Modulated from Plasma Membrane Integrin αvβ3 by Thyroid Hormone and Nanoparticulate Tetrac".

Author

Davis PJ, Glinsky GV, Lin HY, Leith JT, Hercbergs A, Tang HY, Ashur-Fabian O, Incerpi S, and Mousa SA

Abstract

[This corrects the article on p. 240 in vol. 5, PMID: 25628605.].

Published

2015